DE3204261C2 - - Google Patents

Description

The invention relates to a non-aqueous cell, the An has final flags, and that relates to the invention in one separate a non-aqueous cell in which a light metal, such as lithium or sodium, as a substance is used for a negative active material.

The cells of this type are due to the advantage of them high voltage and their high energy density as electricity sources for electronic computers and electronic clocks instead of silver cells and mercury cells in Ge need come. Recently they have also been used as electricity swell for memory in electronic circuits turned, especially as a storage support stream sources that are intended to be used during a stream fail to serve as power sources. In this case the cells in the structural arrangement in the Way used in printed circuit boards similar to other electronic components the. It is therefore necessary that one connection ne with the plus connection housing and with the minus connection housing is connected, which at the same time as a positive and negative connection. Cells of the previously described ben design are z. B. in the US patent 42 47 603.

Especially in the case of non-aqueous cells, such as. B. of non-aqueous button cells that are constructed in such a way that the minus electrode either directly or through the minus Electrode current collector of good thermal conductivity than Medium on the inner surface of the minus connection housing  ses pressure-bound, it happens when a connection ne at one end thereof to the outer surface of the Minus connection housing z. B. by means of the row or Serial point procedure or indirect point procedure rens is welded to the part that ge is welded to temperatures up to a height of Is heated to 1000 ° C. The intense heat melts in consequently the minus electrode, which has a low one Melting point (180 ° C for lithium and 98 ° C for Na trium), and as a result the respective separation melts element, which is the positive electrode and the negative electrode trode keeps a distance from each other, which is the disadvantage The result is that the respective cell has one or more right inner shorts.

With regard to the due to the aforementioned Sachla Any impairments that occur should be with the Erfin tion can be prevented by welding a Terminal lug a harmful heat effect on the Mi the electrode of the cell is exerted.

In summary, one is not with the invention aqueous cell provided which is a minus electrode made of a light metal, such as. B. Lithium or sodium, either directly or through egg NEN electrode current collector as a medium on the in neren surface of a negative connection housing Druckge is bound; this non-aqueous cell has an agent or a device for steaming or buffering the heat transmission, which or within the minus connection Housing is provided and allows a connection flag by welding at one end to the same outer surface of the minus connection housing in one Position that corresponds to that of the agent or the device for steaming or buffering the heat  is opposite. The expression "Medium or Before direction for damping or buffering the heat transfer ", as used here refers to an agent or a device that a possible heat transfer of heat during welding of the Terminal lug at one end of the same to the outer Surface of the minus connection housing for use reaches, to the minus electrode inside the minus connection housing dampens or buffers. This means or this The device is inside the minus connection housing the position provided which the position on the outer surface of the minus connection housing, on the one end of the terminal lug is welded opposite lies. In particular, this means or this direction should be a heat-insulating part attached to the inner surface of the negative terminal housing is bound; or a heat insulating part that runs along the inner Surface of the minus connection housing or along the Surface of the negative electrode on which the negative electrode trode through a minus electrode current collector as Me dium to the inner surface of the minus connection housing is pressure-bound, is provided; or a buffer cavity space in a part or area between the minus connection housing and the negative electrode is formed, namely z. B. a hole or a recess, the or which is formed in the minus electrode.

Since the non-aqueous cell according to the invention with a such means or such a device for damping fen or buffering the heat transfer is provided, such as described above are a possible melting of the Minus electrode and a possible smelt as a result zen of the separating element by the heat that during the Welding the terminal lug to the outer surface of the negative connection housing is used, and further  a possible occurrence of a short circuit due to the Prevents melting of the separating element.

The invention, in particular the structure of the non-aqueous cell according to the invention and the advantages of the invention are explained in more detail below with reference to some particularly preferred embodiments shown in FIGS . 1 to 5 of the drawing; show it

... Figure 1, Figures 3 and 4 are sectional views of nichtwäßri gen cells, various Ausführungsfor men to the invention;

Fig. 2 is a side view of a non-aqueous cell le of Figure 1, which is inserted into a printed circuit board 20 ; and

Fig. 5 is a sectional view of a minus electrode which is provided with a recess as a device for damping the heat transfer.

The invention will now be referred to below explained in more detail on the figures of the drawing.

Figure 1 illustrates a preferred embodiment of the non-aqueous cell of the invention. 1 with a made of stainless steel positive connection housing or housing part is designated. On the inner bottom of this positive connection housing, a positive electrode 3 is easily seen in the z. B. manganese dioxide is used as their active mate rial, and which is fixed in place by means of or via a positive electrode current collector 2 . 4 with a made of stainless steel Mi nusanschlußgehäuse or housing part is called. On the inner bottom of this negative connection housing, a negative electrode current collector 5 made of stainless steel wire mesh is fixed in position by spot welding. At this minus electrode collector 5 is a negative electrode 6 of a certain shape, which is punched out of a rolled lithium plate, pressure-bonded. 7 with a separation element is referred to, which is made of a non-woven polypropylene textile material and is impregnated with a certain amount of non-aqueous electrolyte. 8 is an insulating seal, which serves to isolate the positive connection housing and the negative connection housing from one another and is therefore provided between these two.

With 9 a heat insulating part is designated, which is arranged on a part of the inner surface of the aforementioned Mi connector housing 4 . It is Z. B. by coating said part of the inner surface of the negative terminal housing, for example with a layer of silicone resin or pitch of z. B. 0.1 mm thick. Optionally, a heat insulating resin part having a high melting point, such as. B. Unwoven textile material made of polyethylene or polypropylene of about 0.1 mm thickness can be inserted between the negative connection housing 4 and the negative electrode current collector 5 .

With 10 and 11 , a first and second terminal lugs are characterized, which are connected by means of spot welding to the respective outer surface of the plus and minus terminal housing. They can be made from a nickel plate or a nickel plate or an iron plate plated with nickel or an iron plate plated with nickel. In particular, one end of the second terminal lug 11 is connected at 12 by means of spot welding to the outer surface of the negative terminal housing, which is or is opposite to the aforementioned heat-insulating part 9 .

The cell according to the invention, which is constructed in the above manner, is inserted into a printed circuit board 20 by inserting the two connecting tabs 10 and 11 into the printed circuit board 20 , as shown in FIG. 2, and subsequently together with other parts soldered to the printed circuit board.

In the non-aqueous cell described above, this is insulating part on part of the inner surface of the minus connection housing provided on which the minus electrode made of light metal, such as. B. made of lithium or sodium, directly or by means of the minus electrodes current collector is pressure-bound, and one end of the An final flag is by welding in the opposite of the heat insulating part lying position with the outer ren surface of the negative terminal housing connected. The Heat effect that may occur during spot welding ßens the connecting lug exerted on the negative electrode can be, is ver through the heat insulating part prevents. As a result, both become a possible Melting of the separating element due to melting of the Minus electrode as well as the possible occurrence of a Short circuit due to the melting of the separating element locked out.

Fig. 3 illustrates another preferred embodiment of a non-aqueous cell according to the invention. In this embodiment, the heat transfer damping device is an insulating member 29 provided along a part of the surface of the negative electrode 26 that is adjacent to the negative electrode current collector 25 . This heat insulating part is made of a polypropylene film or a non-woven polypropylene textile material of about 0.1 mm thickness. The structure of this cell corresponds to that of the preferred embodiment of FIG. 1 in all other respects.

If the cell does not have a negative electrode current collector 25 , the heat insulating part 29 is hen along the inner surface of the negative terminal housing 24 .

The above non-aqueous cell is also inserted into a printed circuit board in the same manner as illustrated in FIG. 2, that is, by inserting the two terminal lugs 30, 31 into the printed circuit board and then connecting them to it, by soldering them together with the other parts.

In the non-aqueous cell described above, this is heat insulating part along part of the surface the negative electrode, which is connected to the negative connection housing or adjacent to the negative electrode current collector net, and one end of a terminal lug is through Weld with the outer surface of the minus connection housing, which is opposite the heat insulating part, connected. While connecting the terminal lug spot welding makes the heat effect more possible pointed out by welding on the minus electrode is practiced, because it is heat insulation between the minus electrode and the position which is opposite the spot welding point, because lies between. As a result, both becomes a possible Melting of the separating element due to melting of the Minus electrode as well as the possible occurrence of a  Short circuit due to the melting of the separating element locked out.

Fig. 4 illustrates still another preferred embodiment of a non-aqueous cell according to the invention He. In this embodiment, the heat transfer damping device is a hole 47 formed in the negative electrode 46 . The structure of this cell is identical in all other respects to that of the embodiment in FIG. 1.

Fig. 5 shows another embodiment of the minus electrode 46 ' . In this embodiment, the device for damping heat transfer is a recess 53 formed in the surface of the negative electrode which is adjacent to the negative electrode current collector.

In any of the above-described embodiments because of the formation of the cavity on or in a part between the negative connection housing and the negative electrical de the heat generated during the welding of the connection flag is applied to a transfer to the minus electrode are hindered. As a result, it can if possible, a short circuit in the cell due to the melting of the separating element, which would occur if the minus electrode melted would be excluded.

The non-aqueous cell according to the above embodiment can be inserted into a printed circuit board in the same manner as illustrated in Fig. 2, that is, by inserting the two tabs 50, 51 in the printed circuit board and then by soldering together with the other parts connected to the printed circuit board.

Now the heat insulating part is the device to dampen or buffer the heat transfer in one non-aqueous cell according to the invention is used described.

The three heat insulating parts listed below leads, are each a heat-insulating layer, wel surface on the inner surface of the negative connection housing ses in the position that opposes that position on which the connection lug is welded, is trained and used.

• (a) Silicone resin layer
  This is done by applying a solvent-free silicone resin (with a viscosity of about 70,000 mPas) in such an amount that a layer of about 0.01 to 0.1 mm dry density results, and by leaving the applied resin and hardening at room temperature formed during 15 to 16 hours.
• (b) Epoxy resin layer
  This is accomplished by applying a resin solution obtained by mixing a main epoxy resin component with a curing agent in an amount to give a layer of about 0.01 to 0.1 mm dry thickness, and by applying the resin applied allowed to cure at about 90 ° C for about 30 minutes.
• (c) pitch layer
  This is formed by dissolving pitch, which is a viscous, high molecular weight substance derived from petroleum or petroleum and consisting predominantly of asphalt, in xylene in that the solution obtained is applied in an amount such that a Layer of about 0.01 to 0.1 mm dry thickness results, and that one dries the applied layer at room temperature for 15 to 18 hours or at 60 ° C for 4 to 6 hours.

The other heat insulating part, i.e. H. (d), a slide or thin plate or non-woven textile material made of egg such synthetic resin as polyethylene, Po lypropylene or polyester, is where the minus elec tread directly on the inner surface of the minus connection is pressure-bound as an insert between the same used. If the negative electrode has a interposed minus electrode current collector to the inner surface of the negative connection housing pressure-molded is, then the heat insulating part in the Wei se used that between the minus electrode and the Minus electrode current collector or between the minus junction box and the negative electrode current collector is inserted. If the terminal lug by welding with the outer surface of the negative junction box is connected, then this heat-insulating melts Part, but the minus electrode does not melt.

The thickness of the heat insulating part described above is approximately 0.02 to 0.15 mm. The area and the shape of the heat insulating part are not specifically festge sets. You just have to be such that the during the Welding the terminal lug to the outer surface of the minus electrode housing used Heat is prevented from having an adverse effect on the minus electrode.  

The non-aqueous cell according to the invention is used in the manufactured in the manner described below. The first Step includes the preparatory or providing Formation of the heat-insulating layer according to (a), (b) or (c) as described above on the inner top surface of the minus connection housing, and then takes place pressure binding of the minus electrode directly to the inside re surface of the minus junction box or a point welding the negative electrode current collector to the in nere surface of the negative terminal housing and then one Pressure binding of the minus electrode over the minus electrodes current collector as a medium to the inner surface of the Minus connection housing; or a preparatory or be inserting the heat-insulating part ge according to (d), as described above, between the inner upper surface of the minus connection housing and the minus electrodes current collector and then spot welding the front mentioned current collector to the inner surface of the Minus connection housing and then a pressure binding of the Mi nut electrode through the aforementioned current collector as Medium to the inner surface of the minus connection housing ses, or a spot weld of the aforementioned current collector to the inner surface of the negative terminal house and then pressure binding the minus electrode through the heat insulating part as a medium to the minus electrode current collector, or otherwise a direct one Pressure binding of the minus electrode through the aforementioned heat insulating part as a medium to the inner surface surface of the negative junction box; or alternatively, egg ne pressure binding of the minus electrode, that with the above described hole or the Ausneh described above is provided, directly or through the negative electrical current collector as a medium on the inner surface of the minus connection housing.  

The last step involves putting together what was obtained in the first step with the Pluselek trode, the positive connection housing, the separating element, the insulating seal etc., so that this does not aqueous cell is assembled, and further a point welding the two connecting lugs, one on each their ends on one of the outer surfaces of the Minusan terminal housing or the positive connection housing.

As metals used for the minus electrode in the non-water cell according to the invention can be used be z. B. lithium, sodium, aluminum and magnesium specified. If any of these metals jump on the inner surface of the negative connection housing Druckge is tied, it melts when the terminal lug through Welding is connected. As active materials that can be used for the positive electrode, z. B. Man gand dioxide, carbon fluoride and silver chromate ben.

As a minus connection housing for the non-aqueous cell the invention are e.g. B. such materials as stainless he steel can be used. As a positive connection housing are in accordingly also such materials as e.g. B. stainless steel can be used. As connecting flags for the non-aqueous cell according to the present invention For example, those that made of nickel sheet and iron sheet plated with nickel consist.

As electrolytes in the non-aqueous cell after the Invention can be used, for. B. such Electrolytes indicated by dissolving lithium perchlorate, lithium borofluoride and the like in orga African solvents, such as propylene car  bonat, ethylene glycol dimethyl ether and r-butyrolacetone be preserved.

Separating elements that are used in the present case can, for. B. non-woven textile materials made of poly ethylene, polypropylene, polyester and rayon fibers. The non-aqueous cells to which the invention relates is reversible, are those that are constructed so that the Minus electrode made of a light metal, such as. B. Lithium or sodium is made, either directly or through the negative electrode current collector as a medium pressure on the inner surface of the negative connection housing is bound. However, you are not limited to those in which the aforementioned liquid electrolytes are used det, but they also include those in which solid electrolytes are used.

Claims (8)

1. Non-aqueous cell, which has a negative electrode made of a light metal, such as lithium or sodium, which is pressure-bound either directly or through a negative electrode current collector as a medium to the inner surface of a negative electrode housing, characterized in that the non-aqueous cell is a means or a Vorrich device ( 9; 29; 47; 53 ) for damping the heat transfer, which or which is provided within the minus connection housing ( 4; 24; 44 ) and makes it possible to a connecting lug ( 11; 31; 51 ) by welding at one end thereof to the outer surface of the negative terminal housing ( 4; 24; 44 ) in the position opposite to that of the means or device ( 9; 29; 47; 53 ) for damping the heat transfer. 2. Non-aqueous cell according to claim 1, characterized in that the means or the device for damping the heat transfer is formed by a heat-insulating part ( 9; 29 ). 3. Non-aqueous cell according to claim 2, characterized in that the heat insulating part ( 9 ) on the inner surface of the Minusanschlußge housing ( 4 ) is bound or connected to this inner surface. 4. Non-aqueous cell according to claim 2 or 3, characterized in that the heat insulating part ( 9; 29 ) is a silicone resin layer, an epoxy resin layer or a pitch layer. 5. Non-aqueous cell according to claim 2, characterized in that the heat insulating part ( 9; 29 ) along the inner surface of the Minusan circuit housing ( 4 ) is provided or along the open NEN surface of the minus electrode ( 26 ) by a minus electrode current collector ( 25 ) is pressure-bound as a medium to the inner surface of the minus connection housing ( 24 ). 6. Non-aqueous cell according to claim 2, 3 or 5, characterized in that the heat-insulating part ( 9; 29 ) is a non-woven textile material or a film or thin plate, which is or the Herge is made of polyethylene, polypropylene or polyester . 7. Non-aqueous cell according to claim 1, characterized in that the means or the device for damping the heat transfer is a buffer cavity ( 47; 53 ) in a part or at a location between the negative connection housing ( 44 ) and the negative electrode ( 46; 46 ' ) is formed. 8. Non-aqueous cell according to claim 7, characterized in that the buffer cavity is a hole ( 47 ) or a recess ( 53 ) which or in the minus electrode ( 46; 46 ' ) is formed in a position from which the position opposite, at which the terminal lug ( 51 ) is connected by welding to the outer surface of the negative terminal housing ( 44 ).